Title :
Coils and the Electromagnet Used in the Joule Balance at the NIM
Author :
Zhonghua Zhang ; Zhengkun Li ; Bing Han ; Yunfeng Lu ; Shisong Li ; Jinxin Xu ; Gang Wang
Author_Institution :
Nat. Inst. of Metrol., Beijing, China
Abstract :
In the joule balance developed at National Institute of Metrology, the dynamic phase of a watt balance is replaced by the mutual inductance measurement in an attempt to provide an alternative method for the kilogram redefinition. However, for this method a rather large current in the exciting coil, is needed to offer the necessary magnetic field in the force weighing phase, and the coil heating becomes an important uncertainty source. To reduce coil heating, a new coil system, in which a ferromagnetic material is used to increase the magnetic field was designed recently. However, adopting the ferromagnetic material brings the difficulty from the nonlinear characteristic of material. This problem can be removed by measuring the magnetic flux linkage difference of the suspended coil at two vertical positions directly to replace the mutual inductance parameter. Some systematic effects of this magnet are discussed.
Keywords :
balances; coils; electromagnets; ferromagnetic materials; inductance measurement; magnetic field measurement; magnetic flux; measurement uncertainty; NIM; National Institute of Metrology; coil heating; electromagnet; exciting coil; ferromagnetic material; force weighing phase; joule balance; magnetic field; magnetic flux linkage difference measurement; mutual inductance measurement; mutual inductance parameter; nonlinear characteristic; suspended coil; systematic effects; uncertainty source; watt balance; Coils; Current measurement; Force; Heating; Magnetic cores; Magnetic hysteresis; Superconducting magnets; Coil heating; Planck´s constant.; Planck???s constant; electromagnet; ferromagnetic material; joule balance; kilogram; nonlinearity;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2015.2406055
